盐湖作为防治污染的屏障:多学科综述

IF 1.2 4区环境科学与生态学 Q4 LIMNOLOGY

Limnetica Pub Date : 2022-01-01 DOI:10.23818/limn.41.17

Valiente Nicolás, F. Jirsa, J. J. Gómez-Alday

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引用次数: 4

摘要

盐湖作为防止污染的屏障:多学科综述盐湖受到与人类活动密切相关的许多环境影响，包括采矿、干燥和污染。这些湖泊大多位于内陆盆地的干旱和半干旱地区，加之这些地区典型的低降水和高蒸发速率，可能导致污染物的积累。盐湖的污染主要来自农业废水的输入以及来自家庭和工业来源的有机和无机废物。人为负荷过多的营养物质，特别是氮，可导致这些生态系统的富营养化。本文对盐湖污染的重要性进行了评价，特别强调了氮污染及其在水体界面的衰减。盐湖主要存在两个界面:(1)沉积物-水界面;(2)淡水-咸水界面。前者是微生物周转最重要的途径，而后者在基于密度驱动流的溶质输送的污染衰减中也起着关键作用。研究盐湖如何减弱氮污染物(如硝酸盐)是在保持这些生态系统良好生态状态方面向前迈出的一步。这项工作强调需要将来自不同学科的广泛技术，如湖沼学、水文地质学、地球化学或微生物生态学，整合到这类研究中。管理人员对保护政策的有效应用将取决于对这些系统的了解程度。

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Saline lakes as barriers against pollution: a multidisciplinary overview

Saline lakes as barriers against pollution: a multidisciplinary overview Saline lakes are subject to numerous environmental impacts closely related to human activities, including mining, desiccation and pollution. These lakes are mostly located in arid and semi-arid regions located in endorheic basins, which combined with the low precipitation and high evaporation rates typical for these regions, may lead to the accumulation of pollutants. Saline lakes are polluted mainly through inputs of agricultural wastewater along with organic and inorganic wastes from domestic and industrial sources. The excessive anthropogenic loading of nutrients, especially nitrogen (N), can result in eutrophication of these ecosystems. Here, the importance of pollution in saline lakes was assessed, placing special emphasis on N pollution and its attenuation in aquatic interfaces. Two main interfaces are present in saline lakes: (1) the sediment-water interface; (2) the freshwater-saltwater interface. While the former is the most important one for microbial turnover, the latter plays also a key role in pollution attenuation based on solute transport by density-driven flows. The study of how saline lakes can attenuate N pollutants (e.g. nitrate) is a step forward in preserving the good ecological status of these ecosystems. This work highlights the need of integrating a wide range of techniques from different disciplines such as limnology, hydrogeology, geochemistry or microbial ecology for such studies. The effective application of conservation policies by managers will depend on the degree of knowledge of these systems.

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来源期刊

Limnetica LIMNOLOGY-MARINE & FRESHWATER BIOLOGY

CiteScore

3.70

自引率

7.10%

发文量

审稿时长

>12 weeks

期刊介绍： Limnetica publishes original research articles on the ecology of inland waters. The scope of Limnetica includes the ecology of rivers, lakes, reservoirs, coastal lagoons and wetlands, as well as biogeochemistry, paleolimnology, development of new methodologies, taxonomy, biogeography and any aspect of theoretical and applied continental aquatic ecology such as management and conservation, impact assessment, ecotoxicology and pollution. Limnetica will accept for its publication scientific articles presenting advances in knowledge or technological development, as well as as papers derived from new practical approaches on the topics covered by the journal.